Vertical stab tendon bottom connector and method for securing and releasing the same

ABSTRACT

A bottom connector for the tendon of a tension leg platform uses a latch ring with an outer profile to engage a mating profile in a receptacle on the sea floor. The latch ring moves radially within a housing, relative to the receptacle, between an engaged position and a retracted position. The latch ring engages the receptacle by lowering the connector into the receptacle below the mating profile and then lifting it until the latch ring locks into the receptacle. The latch ring disengages the receptacle by lowering the connector beyond a recess located below the mating profile and then lifting the connector out of the receptacle. As the connector is lifted above the recess, a retaining ring is actuated by the recess to retain the latch ring in its retracted position.

This application claims benefit of provisional application 60/027,490,filed Sep. 27, 1996.

TECHNICAL FIELD

This invention relates in general to remotely operable connectors and inparticular to an improved vertical entry bottom connector for the tendonof a tension leg platform.

BACKGROUND ART

The bottom connector of a tension leg platform (TLP) tendon connects thelower end of the tendon to an anchor template or pile on the sea floorin order to transfer tendon loads into the anchor structure.

There are two primary types of bottom connectors. Side entry bottomconnectors are installed into a tendon bottom receptacle by insertingthe connector through a slot in the side of the receptacle. Verticalentry bottom connectors are inserted downward through the top of thereceptacle.

Typically, vertical entry bottom connectors are large and expensive tomanufacture. Some prior art versions require rotation to engage anddisengage the receptacle. Other versions require landing on a shoulderwithin the receptacle to release the connector. These latter deviceshave the additional, potential disadvantage of subjecting the tendons ofthe TLP to compressive forces.

DISCLOSURE OF INVENTION

In this invention, the receptacle on the sea floor has a bore with aninner profile and a recess located below the inner profile. A connectorbody is secured to the lower end of a tendon and lowered into thereceptacle. An outwardly-biased latch is carried by the body and has anouter profile which engages the inner profile of the receptacle in anengaged position to limit upward movement of the body. The latch alsohas a retracted position wherein the latch is retracted out ofengagement with the inner profile.

A retainer is mounted to the body and has a released position relativeto the latch which allows the latch to move to the engaged position. Theretainer has a locked position which holds the latch in the retractedposition. Lowering the body until the retainer engages the recess causesthe retainer to assume the locked position, thereby allowing the body tobe withdrawn from the receptacle with the latch being held in theretracted position.

BRIEF DESCRIPTION OF DRAWINGS

FIG. 1 is a sectional side view of a first embodiment of a bottomconnector shown engaged to a receptacle for the tendon of a tension legplatform and is constructed in accordance with the invention.

FIGS. 2-8 are half-sectional views of the bottom connector andreceptacle of FIG. 1 at various stages of engagement.

FIG. 9 is a sectional side view of the bottom connector, tendon andreceptacle of FIG. 1 undergoing deflection.

FIG. 10A is a half-sectional views of a second embodiment of the bottomconnector and receptacle of FIG. 1 prior to engagement.

FIG. 10B is an enlarged portion of the half-sectional view of FIG. 10A.

FIGS. 11-21 are half-sectional views of the embodiment of FIG. 10A atvarious stages of engagement.

BEST MODE FOR CARRYING OUT THE INVENTION

Referring to FIG. 1, a bottom connector 11 for a tension leg platformtendon 13 is shown. Connector 11 has an inner tubular body 14 which issecured to a lower end of tendon 13. Connector 11 is provided foranchoring tendon 13 to a cylindrical receptacle 15 located on the seafloor (not shown). Once connector 11 is installed, tendon 13 and body 14are in tension; no downward-directed force is applied to the assembly.Inner body 14 has a central axis 16 and a hub or flange 17 on a lowerend with an upward-facing shoulder 19 on an outer side, and a coaxialbore 21.

Connector 11 has three substructures: a lower portion which is used tofacilitate entry into a bore 18 in receptacle 15, an intermediateportion which accommodates for extraneous movement of tendon 13, and anupper portion which interfaces with bore 18 of receptacle 15.

The lower portion of connector 11 comprises an end plate 23 which iswelded to the lower end of inner body 14 over bore 21 perpendicular toaxis 16. End plate 23 has a coaxial, concave recess 24 on a lower sidewhich receives a convex upper end 26 of a pivot member 25. Pivot member25 extends upward into engagement with end plate 23 from a bottom plateor brace 27. End plate 23 is pivotal relative to pivot member 25 asshown in FIG. 9. A tow eye 29 extends downward from a lower side ofbottom plate 27. The lower end of connector 11 also comprises a rigidguide funnel 31. Guide funnel 31 has a lower frustoconical portion 33and an upper cylindrical portion 35. A lower end of frustoconicalportion 33 is welded to bottom plate 27. Cylindrical portion 35 isconcentric with axis 16 and has an outer diameter that is slightly lessthan the inner diameter of receptacle 15. The upper end of cylindricalportion 35 is welded to an annular retainer plate 37 which isperpendicular to axis 16.

The intermediate portion of connector 11 comprises a flexible element 41which is landed on shoulder 19 of flange 17. Flexible element 41 extendsupward from shoulder 19 and is fastened to tendon 13 with an annularclip 43. A spacer ring 45 is fastened to an upper end of flexibleelement 41 with bolts 47.

Referring to FIG. 2, the upper portion of connector 11 has an outer body51 which is fastened to spacer ring 45 and retainer plate 37 with bolts53. The lower inside and the upper outside portion of body 51 aregenerally concave recesses 55, 57, with the lower inside portion 55receiving spacer ring 45. A retainer cap 59 is fastened to the upper endof body 51 with bolts 61. Cap 59 has a generally V-shaped groove 63 anda lip 65 along an outer edge.

A latch 71 is located within recess 57 and groove 63. In the embodimentshown in FIG. 2, latch 71 comprises a plurality of segmented latches.Each segment of latch 71 is outwardly pivotal about a pivot point on alower end. Latch 71 has a pair of external teeth or grooves 73 which aredesigned to mate with an inner profile 75 at the upper end of receptacle15. Grooves 73 have outer flanks which are inclined upward. Latch 71also has a small step or shoulder 77 on an upper end which engages lip65 in cap 59. An outwardly-biased split ring spring 79 locates within arecess 81 between cap 59 and body 51. Spring 79 engages an inner side oflatch 71. A rib 83 extends outward from latch 71 just below grooves 73.

Latch 71 is retained within bottom connector 11 by an annular blockingsleeve or retainer 85. Retainer 85 is a solid ring and is axiallymovable relative to body 51. Retainer 85 has an inner profile whichgenerally mates with the outer surface of latch 71, including a lip 87which lies between lower groove 73 and rib 83, and an internal groove 89which engages rib 83. Retainer 85 also has an upward facing shoulder 91which mates with a downward facing shoulder 93 on body 51 located justbelow recess 57. Retainer 85 is sliclably movable along body 51 from theupper released position shown in FIGS. 1-6, to the lower locked positionshown in FIGS. 7-8. A lock member 95 is located below and is part ofretainer 85 for restricting its movement relative to body 51 and latch71. Lock member 95 is an outwardly-biased split ring. An entrapment pin97 lies between lock member 95 and retainer 85 for maintaining theposition of retainer 85. Pin 97 is spring-biased and releasable from adetent in a lower portion of retainer 85. Lock member 95 has an outerprofile which is designed to mate with an intermediate groove 98 locatedbelow inner profile 75 in receptacle 15. In its expanded position ofFIG. 1, lock member 95 has an outer diameter which is greater than theouter diameter of retainer 85. Referring back to FIG. 1, receptacle 15also has a recess 99 on a lower end.

In operation, connector 11 is secured to tension leg platform tendon 13and receptacle 15 is anchored to the sea floor. As shown in FIG. 2, thelower end of connector 11 is lowered into receptacle 15. If the axes ofconnector 11 and receptacle 15 are slightly misaligned, frustoconicalportion 33 will assist in their proper alignment. Once the axes arealigned, cylindrical portion 35 drops into receptacle 15. As the upperportion of connector 11 enters receptacle 15, lock member 95 iscollapsed radially inward, with its outer diameter flush with the innerdiameter of receptacle 15 (FIG. 3). Latch 71 is pivoted radially inward,thereby collapsing spring 79 inward. Latch 71 is now in a retractedposition.

During its descent, the upward inclined flanks of grooves 73 preventlatch 71 from engaging inner profile 75. Retainer 85 slides over innerprofile 75 and does not engage it since retainer 85 has an axialdimension which is longer than the axial dimension of inner profile 75.As shown in FIG. 4, connector 11 continues its descent into receptacle15, generally unimpeded. Once grooves 73 are below inner profile 75,connector 11 is raised upward until latch 71 springs outward under theinfluence of spring 79 and grooves 73 engage inner profile 75 (FIG. 5).Once this step occurs, latch 71 is in an engaged position and preventsthe upward movement of body 51. Lock member 95 snaps into intermediaterecess 98, releasably preventing downward movement of connector 11 inreceptacle 15. In this figure, retainer 85 is in a released positionrelative to latch 71 which allows latch 71 to move to the engagedposition.

Referring to FIG. 9, once connector 11 is anchored into receptacle 15,it is capable of accommodating a significant amount of pivotal movementby tendon 13. By pivoting between end plate 23 and spacer plug 25, andflexing about flexible elements 41, connector 11 allows tendon 13 topivot up to ten degrees relative to axis 16.

To disengage connector 11, it is once again lowered (FIG. 6). Asdescribed above, the inclined flanks of grooves 73 do not impede thedownward motion of connector 11. The resistance to downward movement byretainer 85 and lock member 95 is overcome with a selected weightapplied in a downward direction. The downward motion of connector 11 isstopped when retainer 85 is located in or below recess 99 of receptacle15 (FIG. 6). Connector 11 is then lifted upward. When lock member 95engages recess 99 (FIG. 7) it engages a downward-facing shoulder 99a,which causes pin 97 to release from the detent on retainer 85. Continuedupward movement causes body 51 to move upward relative to retainer 85and lock member 95. With this motion, lip 87 of retainer 85 is movedonto a radially outer surface of rib 83, thereby shifting retainer 85from the released position to a locked position which holds latch 71 inthe retracted position. Latch 71 is axially movable relative to retainer85 while retainer 85 engages recess 99. Rib 83 engages internal groove89 when retainer 85 is in the released position (FIGS. 5-6), anddisengages from groove 89 when retainer 85 is in the locked position(FIGS. 7-8). As shown in FIG. 8, continued upward movement of body 51moves latches 71 past inner profile 75, thereby allowing connector 11and tendon 13 to be withdrawn from receptacle 15 with latch 71 beingheld in the retracted position.

A second embodiment of the invention is shown in FIGS. 10A and 10B. Abottom connector 111 for a tension leg platform tendon (not shown) isprovided for anchoring the tendon to a cylindrical receptacle 115located on the sea floor (not shown). The tendon is substantiallysimilar to tendon 13 of FIG. 1. Like connector 11, connector 111 haslower, intermediate and upper portions.

The lower and intermediate portions of connector 111 are very similar tothose of connector 11. A rigid guide funnel 131 has an outer diameterwhich is slightly less than the inner diameter of receptacle 115. Theupper end of funnel 131 is fastened to an annular outer body 145 withbolts 147. Connector 111 also has an inner body (not shown) whichattaches to a tendon and preferably mounts to outer body 145 with flexelements.

The upper outside portion of outer body 145 is a generally concaverecess 149 with a downward sloping lower surface. An uppermost portion145a of outer body 145 extends vertically and is threaded on an outersurface. A generally L-shaped housing 151 is threadingly fastened alongits lower, inner surface to uppermost portion 145a. A retainer cap 159is fastened to the upper end of housing 151 with bolts 161. Cap 159 hasa generally downward facing U-shape with a lower outer edge 159a.

A latch 171 is located in recess 149 below an inclined, lower side 151aof housing 151. Side 151a is generally parallel to the lower surface ofrecess 149. In the embodiment shown in FIG. 10B, latch 171 comprises asplit ring which is biased in a radially outward direction. Latch 171 isradially movable within recess 149 between an outer position shown inFIG. 10B and a contracted position shown in FIG. 18. Latch 171 has anupward-facing shoulder 173 which is designed to mate with an innerprofile 175 at the upper end of receptacle 115. Latch 171 also has neck177 on an upper end which engages side 151a.

Latch 171 may be retained within recess 149 in a retracted position by asplit ring retainer 185. Retainer 185 is axially and radially movablerelative to housing 151 and latch 171. Retainer 185 has an outer profilewhich generally mates with an upper profile 115a located above innerprofile 175 in receptacle 115. Retainer 185 also has a lip 187 whichextends downward toward latch 171, and an internal rib 189 which extendsdiagonally downward and inward and engages a slot 186 in housing 151.Retainer 185 also has an upper vertical portion 191 which engages edge159a on cap 159.

A release spring or lock member 195 is located along an outer edge ofouter body 145 below latch 171 for accommodating its movement relativeto outer body 145, housing 151 and retainer 185. A spring 194 extendsbetween a lower portion of lock member 195 and outer body 145 forbiasing lock member 195 in an upward direction. A positioner pin 197extends between lock member 195 and outer body 145 for maintaining theposition of lock member 195. The head of pin 197 locates in an elongatedslot in lock member 195 to allow limited axial movement of lock member195 relative to outer body 145. Lock member 195 has an upper surface195a which is designed to engage the lower surface 171a of latch 171 andis flush with the lower surface 149a of recess 149 while in the upperposition of FIGS. 10-14. Surface 195a and surface 171a have the sameradial thickness and are inclined at the same angle as surface 149a.Lock member 195 has an upper, outer lip 196 for limiting the outwardmovement of latch 171. Like receptacle 15, receptacle 115 also has arecess 199 on a lower end (FIGS. 16-18).

Connector 111 operates very similarly to connector 11. As shown in FIG.11, connector 111 is lowered into receptacle 115. As the upper portionof connector 111 enters receptacle 115, latch 171 and retainer 185 arecollapsed radially inward until they have an outer diameter that isflush with the inner diameter of receptacle 115 (FIG. 12). Latch 171 isshown in a retracted position.

During its descent, the outer profile of latch 171 prevents it fromlocking into inner profile 175. Retainer 185 slides over inner profile175 (FIG. 13) and does not engage it since retainer 185 has an axialdimension which is longer than the axial dimension of inner profile 175.Retainer 185 is compressed axially upward and radially inward during thedescent. As shown in FIG. 13, connector 111 continues its descent intoreceptacle 115, generally unimpeded. Once latch 171 is below innerprofile 175, the tendon and connector 111 are raised upward until latch171 springs outward and engages inner profile 175 (FIG. 14). Once thisstep occurs, latch 171 is in an engaged position and prevents the upwardmovement of housing 151. Referring to FIG. 15, additional upward pull isthen applied to the tendon which moves body 145 upward slightly relativeto lock member 195. An outer edge 149b of recess 149 abuts an innerlower edge of latch 171 to prevent it from moving inward. Housing 151moves upward slightly relative to lock member 195, compressing spring194. Lock member 195 releasably prevents radially inward movement oflatch 171 and, thus, downward movement of connector 111. In this figure,retainer 185 is in a released position relative to latch 171 whichallows latch 171 to move to the engaged position.

To disengage connector 111, it is once again lowered (FIG. 16). Latch171 and retainer 185 do not impede the downward motion of connector 111.The resistance to downward movement by these components is overcome witha selected downward weight on the tendon. After being compressed upwardand radially inward during the descent, retainer 185 springs downwardand outward into recess 199 at the bottom of receptacle 115. Thediagonal portion of retainer 185 located below vertical portion 191slides along edge 159a to assist in this propagation. The downwardmotion of connector 111 is stopped when retainer 185 is located in orbelow recess 199 of receptacle 115 (FIG. 17). Latch 171 is axially andradially slidable relative to retainer 185 while retainer 185 engagesrecess 199. Connector 111 is then lifted upward. When retainer 185engages recess 199 (FIG. 17), it springs outward relative to housing 151and latch 171. Recess 199 has a downward-facing shoulder 199a whichcontacts retainer 185 as housing 151 is lifted. With this motion, lip187 of retainer 185 is moved onto a radially outer surface of shoulder173 on latch 171, thereby shifting retainer 185 from the releasedposition to a locked position which holds latch 171 in the retractedposition (FIG. 18). Rib 189 is simultaneously placed within slot 186 toprevent further axial movement of retainer 185. Lip 187 does not engageshoulder 173 when retainer 185 is in the released position (FIGS.10-17), and engages shoulder 173 when retainer 185 is in the lockedposition (FIGS. 18-20). Lowering housing 151 until retainer 185 engagesrecess 199 causes retainer 185 to assume the locked position, therebyallowing connector 111 and the tendon to be withdrawn from receptacle115 with latch 171 being held in the retracted position (FIGS. 19-21).Like connector 11, connector 111 is similarly capable of accommodatingup to ten degrees of deflection by the tendon relative to its verticalaxis.

The invention has several advantages. This vertical entry bottomconnector does not require rotation or bottoming-out on a shoulderwithin the receptacle to disengage it. The invention employs a compactdesign, has very few moving parts and has a pivotal lower end whichallows limited deflection of the connector inner body relative to thereceptacle.

While the invention has been shown or described in only two of itsforms, it should be apparent to those skilled in the art that it is notso limited, but is susceptible to various changes without departing fromthe scope of the invention.

We claim:
 1. A bottom connector for a tension leg platform tendon,comprising: a receptacle adapted to be mounted on the sea floor, thereceptacle having a bore with an inner profile and a recess locatedbelow the inner profile; a body adapted to be secured to the lower endof the tendon and lowered into the receptacle; an outwardly-biased latchcarried by the body and having an outer profile which engages the innerprofile of the receptacle in an engaged position to limit upwardmovement of the body, and a retracted position wherein the latch isretracted out of engagement with the inner profile; a retainer slidablymounted to the body and having a released position relative to the latchwhich allows the latch to move to the engaged position, and a lockedposition which holds the latch in the retracted position; and whereinlowering the body until the retainer engages the recess and then liftingthe body causes the retainer to assume the locked position, therebyallowing the body to be withdrawn from the receptacle with the latchbeing held in the retracted position.
 2. The bottom connector of claim 1wherein the body is axially movable relative to the retainer, theretainer having an upper portion which engages the latch while theretainer is in the locked position.
 3. The bottom connector of claim 2,further comprising an internal groove in the retainer; and wherein thelatch has a rib which engages the internal groove in the retainer whenthe retainer is in the released position, and is disengaged from thegroove in the retainer when the retainer is in the locked position. 4.The bottom connector of claim 1 wherein the latch is a split ring.
 5. Abottom connector for a tension leg platform tendon, comprising: areceptacle adapted to be mounted on the sea floor, the receptacle havinga bore with an inner profile and a recess located below the innerprofile; a body adapted to be secured to the lower end of the tendon andlowered into the receptacle; an outwardly-biased latch carried by thebody and having an outer profile which engages the inner profile of thereceptacle in an engaged position to limit upward movement of the body,and a retracted position wherein the latch is retracted out ofengagement with the inner profile; a retainer mounted to the body andhaving a released position relative to the latch which allows the latchto move to the engaged position, and a locked position which holds thelatch in the retracted position; and wherein lowering the body until theretainer engages the recess and then lifting the body causes theretainer to assume the locked position, thereby allowing the body to bewithdrawn from the receptacle with the latch being held in the retractedposition; and wherein the latch is axially movable relative to theretainer while the retainer engages the recess, causing the retainer toassume the locked position.
 6. The bottom connector of claim 5 whereinthe latch and the body move upward relative to the retainer while theretainer engages the recess to move from the released position to thelocked position.
 7. The bottom connector of claim 5 wherein the retainerhas a portion located radially outward of and engaging an outer surfaceof the latch while the retainer is in the locked position.
 8. The bottomconnector of claim 5, further comprising a spring mounted to the bodyfor biasing the latch outward; and wherein the latch comprises aplurality of segments, each of which is outwardly pivotal about a pivotpoint on a lower end.
 9. The bottom connector of claim 5, furthercomprising a split ring mounted to the body for biasing the latchoutward; and wherein the latch comprises a plurality of segments, eachof which is outwardly pivotal about a pivot point on a lower end.
 10. Abottom connector for a tension leg platform tendon, comprising: areceptacle adapted to be mounted on the sea floor, the receptacle havinga bore with an inner profile and a recess located below the innerprofile; a body adapted to be secured to the lower end of the tendon andlowered into the receptacle; an outwardly-biased latch carried by thebody and having an outer profile which engages the inner profile of thereceptacle in an engaged position to limit upward movement of the body,and a retracted position wherein the latch is retracted out ofengagement with the inner profile; a retainer mounted to the body andhaving a released position relative to the latch which allows the latchto move to the engaged position, and a locked position which holds thelatch in the retracted position; and wherein lowering the body until theretainer engages the recess and then lifting the body causes theretainer to assume the locked position, thereby allowing the body to bewithdrawn from the receptacle with the latch being held in the retractedposition; and wherein the body comprises: an inner body portion which isadapted to be secured to the lower end of the tendon; an annular outerbody portion surrounding the inner body portion; and a flexible elementlocated between the inner body portion and the outer body portion foraccommodating a limited amount of pivotal movement between the inner andthe outer bodies.
 11. A bottom connector for a tension leg platformtendon, comprising: a receptacle adapted to be mounted on the sea floor,the receptacle having a bore with an inner profile and a recess locatedbelow the inner profile; a body adapted to be secured to the lower endof the tendon and lowered into the receptacle; an outwardly-biased latchcarried by the body and having an outer profile which engages the innerprofile of the receptacle in an engaged position to limit upwardmovement of the body, and a retracted position wherein the latch isretracted out of engagement with the inner profile; a retainer mountedto the body and having a released position relative to the latch whichallows the latch to move to the engaged position, and a locked positionwhich holds the latch in the retracted position; and wherein loweringthe body until the retainer engages the recess and then lifting the bodycauses the retainer to assume the locked position, thereby allowing thebody to be withdrawn from the receptacle with the latch being held inthe retracted position; and wherein the retainer is mounted to the bodyfor limited axial movement relative to the body; and wherein the recesshas a downward-facing shoulder which contacts the retainer as the bodyis lifted, moving the body upward relative to the retainer.
 12. A bottomconnector for a tension leg platform tendon, comprising: a receptacleadapted to be mounted on the sea floor, the receptacle having a borewith an inner profile and a recess located below the inner profile; abody adapted to be secured to the lower end of the tendon and loweredinto the receptacle; an outwardly-biased latch carried by the body andhaving an outer profile which engages the inner profile of thereceptacle in an engaged position to limit upward movement of the body,and a retracted position wherein the latch is retracted out ofengagement with the inner profile; a retainer mounted to the body andhaving a released position relative to the latch which allows the latchto move to the engaged position, and a locked position which holds thelatch in the retracted position; and wherein lowering the body until theretainer engages the recess and then lifting the body causes theretainer to assume the locked position, thereby allowing the body to bewithdrawn from the receptacle with the latch being held in the retractedposition; an intermediate groove in the receptacle between the innerprofile and the recess; and a lock member on a lower part of theretainer, the lock member engaging the intermediate groove in thereceptacle when the latch engages the inner profile to releasablyprevent downward movement of the body in the receptacle.
 13. A bottomconnector for a tension leg platform tendon, comprising: a receptacleadapted to be mounted on the sea floor, the receptacle having a borewith an inner profile and a recess located below the inner profile; abody adapted to be secured to the lower end of the tendon and loweredinto the receptacle; an outwardly-biased latch carried by the body andhaving an outer profile which engages the inner profile of thereceptacle in an engaged position to limit upward movement of the body,and a retracted position wherein the latch is retracted out ofengagement with the inner profile; a retainer mounted to the body andhaving a released position relative to the latch which allows the latchto move to the engaged position, and a locked position which holds thelatch in the retracted position; and wherein lowering the body until theretainer engages the recess and then lifting the body causes theretainer to assume the locked position, thereby allowing the body to bewithdrawn from the receptacle with the latch being held in the retractedposition; and wherein the body has a downward-inclined shoulder and thelatch is slidably movable along the inclined shoulder.
 14. The bottomconnector of claim 13, further comprising a lock member mounted to thebody for limited axial movement relative to the body, the lock memberhaving an upper side that is flush with the inclined shoulder while inan upper position, the upper side of the lock member being in engagementwith a lower side of the latch, wherein an upward poll on the tendonwhile the latch is in engagement with the inner profile causes the bodyto move slightly upward relative to the lock member and the latch tohold the latch outward in the engaged position.
 15. A bottom connectorfor a tension leg platform tendon, comprising: a receptacle adapted tobe mounted on the sea floor, the receptacle having a bore with an innerprofile and a recess located below the inner profile; a body adapted tobe secured to the lower end of the tendon and lowered into thereceptacle; an outwardly-biased latch carried by the body and having anouter profile which engages the inner profile of the receptacle in anengaged position to limit upward movement of the body, and a retractedposition wherein the latch is retracted out of engagement with the innerprofile; a retainer mounted to the body and having a released positionrelative to the latch which allows the latch to move to the engagedposition, and a locked position which holds the latch in the retractedposition; and wherein lowering the body until the retainer engages therecess and then lifting the body causes the retainer to assume thelocked position, thereby allowing the body to be withdrawn from thereceptacle with the latch being held in the retracted position; andwherein the retainer is a split ring located above the latch, the splitring having a lower portion which extends downward over the latch whenin the locked position.
 16. The bottom connector of claim 15 wherein theretainer is a split ring located above the latch, the split ring havinga lower portion which extends downward over the latch when in the lockedposition, and a rib which extends into a slot in the body for holdingthe split ring in the locked position, the rib being spaced above theslot and the lower portion being spaced above the latch in the releasedposition.
 17. A bottom connector for a tension leg platform tendon,comprising: a receptacle adapted to be mounted on the sea floor, thereceptacle having a bore with an inner profile and a recess locatedbelow the inner profile; a body adapted to be secured to the lower endof the tendon and lowered into the receptacle; an outwardly-biased latchcarried by the body and having an outer profile which engages the innerprofile of the receptacle in an engaged position to limit upwardmovement of the body, and a retracted position wherein the latch isretracted out of engagement with the inner profile; a retainer sleevemounted to the body which is axially movable relative to the sleeve, thesleeve having a released position relative to the latch which allows thelatch to move to the engaged position, and a locked position which holdsthe latch in the retracted position, the latch moving upward relative tothe sleeve as the sleeve moves from the released position to the lockedposition; and wherein lowering the body until the sleeve engages therecess and then lifting the body causes the sleeve to assume the lockedposition.
 18. The bottom connector of claim 17 wherein the sleeve has aportion located outward of and engaging an outer surface of the latchwhile the sleeve is in the locked position.
 19. The bottom connector ofclaim 17, further comprising a spring for biasing the latch outward; andwherein the latch comprises a plurality of segments, each of which isoutwardly pivotal about a pivot point on a lower end.
 20. The bottomconnector of claim 17, further comprising an internal groove in thesleeve; and wherein the latch has a rib which engages the internalgroove in the sleeve when the sleeve is in the released position, and isdisengaged from the groove in the sleeve when the sleeve is in thelocked position.
 21. The bottom connector of claim 17 wherein the sleevehas a lock member portion mounted to the body for limited axial movementrelative to the body; and wherein the recess has a downward-facingshoulder which is contacted by the lock member portion of the sleeve tocause the body to move upward relative to the sleeve while the body islifted.
 22. The bottom connector of claim 17, further comprising: anintermediate groove in the receptacle between the inner profile and therecess; and a lock member on a lower part of the sleeve, the lock memberengaging the intermediate groove in the receptacle when the latchengages the inner profile to releasably prevent downward movement of thebody in the receptacle.
 23. The bottom connector of claim 17 wherein thebody has a downward-inclined shoulder and the latch is a split ringwhich is slidably movable along the inclined shoulder.
 24. The bottomconnector of claim 17, further comprising a split ring lock membermounted to the body in engagement with the sleeve for releasably holdingthe sleeve to the body for axial movement therewith, the lock memberbeing engagable with the recess, the body being movable axially relativeto the lock member, wherein an upward pull on the tendon while the lockmember is engaging the recess causes the latch and the body move upwardrelative to the sleeve to cause the sleeve to hold the latch in theretracted position.
 25. The bottom connector of claim 17 wherein thesleeve comprises a split ring located above the latch, the split ringhaving a lower portion which extends downward over the latch when in thelocked position, and a rib which extends into a slot in the body forholding the split ring in the locked position, the rib being spacedabove the slot and the lower portion being spaced above the latch in thereleasably position.
 26. A bottom connector for a tension leg platformtendon, comprising: a receptacle adapted to be mounted on the sea floor,the receptacle having a bore with an inner profile and a recess locatedbelow the inner profile; a body adapted to be secured to the lower endof the tendon and lowered with the tendon into the receptacle; aplurality of latch segments, each of which is outwardly pivotal about apivot point on a lower end, the latch segments being carried by the bodyand having an outer profile which engages the inner profile of thereceptacle in an outward engaged position to limit upward movement ofthe body, and an inward retracted position wherein the latch segmentsare retracted out of engagement with the inner profile; a split ringmounted to the body for biasing the latch segments in an outwarddirection; an axially movable retainer sleeve mounted to the body andhaving a released position relative to the latch segments which allowsthe latch segments to move outward to the engaged position, and a lockedposition wherein an upper portion holds the latch segments in theretracted position; and wherein lowering the body until the sleeveengages the recess and then lifting upward causes the latch segments tomove upward relative to the sleeve, placing the sleeve in the lockedposition.
 27. The bottom connector of claim 26, further comprising: aninternal groove in the sleeve; and wherein each of the latch segmentshas a rib which engages the internal groove in the sleeve when thesleeve is in the released position, and is disengaged from the internalgroove in the sleeve when the sleeve is in the locked position.
 28. Thebottom connector of claim 26 wherein the sleeve has a lock memberportion mounted to the body for limited axial movement relative to thebody; and wherein the recess has a downward-facing shoulder whichcontacts the lock member portion of the sleeve as the body is lifted formoving the body upward relative to the lock member and the sleeve. 29.The bottom connector of claim 26, further comprising an intermediategroove in the receptacle between the inner profile and the recess; and asplit ring lock member on a lower part of the sleeve, the lock memberengaging the intermediate groove in the receptacle when the latchsegments engage the inner profile to releasably prevent downwardmovement of the body in the receptacle.
 30. A bottom connector for atension leg platform tendon, comprising: a receptacle adapted to bemounted on the sea floor, the receptacle having a bore with an innerprofile and a recess located below the inner profile; a body adapted tobe secured to the lower end of the tendon and having a slot and adownward-inclined shoulder; an outwardly-biased, split ring latchcarried by the body on the shoulder and having an outer profile whichengages the inner profile of the receptacle in an engaged position tolimit upward movement of the body, and a retracted position wherein thelatch is retracted out of engagement with the inner profile; a splitring retainer mounted to the body above the latch for axial movementrelative to the body and the latch, the retainer having a releasedposition relative to the latch which allows the latch to move to theengaged position, and a locked position wherein a lower portion of thesplit ring extends downward over the latch to hold the latch in theretracted position; a rib on an inner portion of the retainer whichextends into the slot in the body for holding the split ring in thelocked position, the rib being in disengagement with the slot and abovethe slot while the retainer is in the released position; and whereinlowering the body until the retainer engages the recess and then liftingthe body upward causes the retainer to assume the locked position. 31.The bottom connector of claim 30, further comprising a lock membermounted to the body for limited axial movement relative to the body, thelock member having an upper side flush with the inclined shoulder whilein an upper position, the upper side of the lock member being inengagement with a lower side of the latch, wherein an upward pull on thetendon while the latch is in engagement with the inner profile causesthe body to move slightly upward relative to the lock member and thelatch to hold the latch in the engaged position.
 32. A method forsecuring and releasing a bottom connector on a tension leg platformtendon, comprising: (a) providing a receptacle on the sea floor with abore having an inner profile and a recess located below the innerprofile; (b) securing a body to a lower end of the tendon, the bodyhaving a retainer mounted thereto and an outwardly-biased latch with anouter profile for engaging the inner profile of the receptacle, theretainer being in a released position relative to the latch which allowsthe latch to move to an engaged position; (c) lowering the body into thereceptacle and engaging the latch with the inner profile of thereceptacle to limit upward movement of the body; and then to disengagethe bottom connector, (d) lowering the body until the retainer islocated in the recess in the receptacle; and then (e) lifting the bodyout of the receptacle, causing the retainer to move to a locked positionwhich holds the latch in a retracted position out of engagement with theinner profile.
 33. The method of claim 32 wherein step (c) compriseslowering the latch below the inner profile, then raising the body andthe latch until the latch engages the inner profile.
 34. The method ofclaim 32 wherein step (e) comprises moving a portion of the retainerinto engagement with an outer surface of the latch while the retainer isin the locked position.
 35. A method for securing and releasing a bottomconnector on a tension leg platform tendon, comprising: (a) providing areceptacle on the sea floor with a bore having an inner profile and arecess located below the inner profile; (b) securing a body to a lowerend of the tendon, the body having a retainer and an outwardly-biasedlatch with an outer profile for engaging the inner profile of thereceptacle, the retainer being in a released position relative to thelatch which allows the latch to move to an engaged position; (c)lowering the body into the receptacle and engaging the latch with theinner profile of the receptacle to limit upward movement of the body;and then to disengage the bottom connector. (d) lowering the body untilthe retainer is located in the recess in the receptacle; and then (e)lifting the body out of the receptacle, causing the retainer to move toa locked position which holds the latch in a retracted position out ofengagement with the inner profile; and wherein step (e) comprises movingthe body and the latch upward relative to the retainer while theretainer is in the recess.
 36. The method of claim 35, furthercomprising: retaining the body against downward movement up to aselected downward force after step (c) and before step (d); and whereinstep (d) comprises applying a downward force on the body which isgreater than said selected downward force.
 37. A connector comprising: areceptacle having a bore with an inner profile and a recess locatedbelow the inner profile; a body adapted to be lowered into thereceptacle; an outwardly-biased latch carried by the body and having anouter profile which engages the inner profile of the receptacle in anengaged position to limit upward movement of the body, and a retractedposition wherein the latch is retracted out of engagement with the innerprofile; a retainer slidably mounted to the body and having a releasedposition relative to the latch which allows the latch to move to theengaged position, and a locked position which holds the latch in theretracted position; and wherein lowering the body until the retainerengages the recess and then lifting the body causes the retainer toassume the locked position, thereby allowing the body to be withdrawnfrom the receptacle with the latch being held in the retracted position.38. The connector of claim 37 wherein the body is axially movablerelative to the retainer, the retainer having an upper portion whichengages the latch while the retainer is in the locked position.
 39. Theconnector of claim 37, further comprising an internal groove in theretainer; and wherein the latch has a rib which engages the internalgroove in the retainer when the retainer is in the released position,and is disengaged from the groove in the retainer when the retainer isin the locked position.
 40. The connector of claim 37 wherein the latchis a split ring.
 41. A connector comprising: a receptacle having a borewith an inner profile and a recess located below the inner profile; abody adapted to be lowered into the receptacle; an outwardly-biasedlatch carried by the body and having an outer profile which engages theinner profile of the receptacle in an engaged position to limit upwardmovement of the body, and a retracted position wherein the latch isretracted out of engagement with the inner profile; a retainer sleevemounted to the body which is axially movable relative to the sleeve, thesleeve having a released position relative to the latch which allows thelatch to move to the engaged position, and a locked position which holdsthe latch in the retracted position, the latch moving upward relative tothe sleeve as the sleeve moves from the released position to the lockedposition; and wherein lowering the body until the sleeve engages therecess and then lifting the body causes the sleeve to assume the lockedposition.
 42. The connector of claim 41 wherein the sleeve has a portionlocated outward of and engaging an outer surface of the latch while thesleeve is in the locked position.
 43. The connector of claim 41, furthercomprising a spring for biasing the latch outward; and wherein the latchcomprises a plurality of segments, each of which is outwardly pivotalabout a pivot point on a lower end.
 44. The connector of claim 41,further comprising: an internal groove in the sleeve; and wherein thelatch has a rib which engages the internal groove in the sleeve when thesleeve is in the released position, and is disengaged from the groove inthe sleeve when the sleeve is in the locked position.
 45. The connectorof claim 41, wherein the sleeve has a lock member portion mounted to thebody for limited axial movement relative to the body; and wherein therecess has a downward-facing shoulder which is contacted by the lockmember portion of the sleeve to cause the body to move upward relativeto the sleeve while the body is lifted.
 46. The connector of claim 41,further comprising: an intermediate groove in the receptacle between theinner profile and the recess; and a lock member on a lower part of thesleeve, the lock member engaging the intermediate groove in thereceptacle when the latch engages the inner profile to releasablyprevent downward movement of the body in the receptacle.
 47. Theconnector of claim 41 wherein the body has a downward-inclined shoulderand the latch is a split ring which is slidably movable along theinclined shoulder.
 48. The connector of claim 41, further comprising asplit ring lock member mounted to the body in engagement with the sleevefor releasably holding the sleeve to the body for axial movementtherewith, the lock member being engagable with the recess, the bodybeing movable axially relative to the lock member, wherein an upwardpull on the body while the lock member is engaging the recess causes thelatch and the body move upward relative to the sleeve to cause thesleeve to hold the latch in the retracted position.
 49. The connector ofclaim 41 wherein the sleeve comprises a split ring located above thelatch, the split ring having a lower portion which extends downward overthe latch when in the locked position, and a rib which extends into aslot in the body for holding the split ring in the locked position, therib being spaced above the slot and the lower portion being spaced abovethe latch in the released position.
 50. A method for securing andreleasing a connector comprising: (a) providing a receptacle on the seafloor with a bore having an inner profile and a recess located below theinner profile; (b) providing a body having a retainer mounted theretoand an outwardly-biased latch with an outer profile for engaging theinner profile of the receptacle, the retainer being in a releasedposition relative to the latch which allows the latch to move to anengaged position; (c) lowering the body into the receptacle and engagingthe latch with the inner profile of the receptacle to limit upwardmovement of the body, and then to disengage the connector; (d) loweringthe body until the retainer is located in the recess in the receptacle;and then (e) lifting the body out of the receptacle, causing theretainer to move to a locked position which holds the latch in aretracted position out of engagement with the inner profile.
 51. Themethod of claim 50 wherein step (c) comprises lowering the latch belowthe inner profile, then raising the body and the latch until the latchengages the inner profile.
 52. The method of claim 50 wherein step (e)comprises moving a portion of the retainer into engagement with an outersurface of the latch while the retainer is in the locked position.